Dirt scraper



5 Sheets-Sheet 1 G. E. DANIELS DIRT SCRAPER Filed sept. 15, 1937 Sept. 12, 1939.

aE 1 j 5 Sheets-Sheet 2 G. E. DANIELS DIRT SCRAPER Filed Sept. 13, 1937 Sept. 12, 1939.

G. E. DANIELS Sept. l2, 1939.

DIRT 'SCRAPER Filed Sept. 13, 1937 5 Sheets-Sheet 3 |NVENTOR SPt 12, 1939- G. E. DANIELS 2,172,672

DIRT SCRAPER Filed Sept. 13, 1957 5 Sheets-Sheet 5 INVENTOR Patented Sept. 12, 1939 UNITED STATES PATENT OFFICE 22 Claims.

This invention relates to dirt scrapers for use in leveling ground for roads and the like, and has particular reference to scrapers of the type wherein a dirt accumulating body, having a transversely extending cutting or scraping edge associated with the bottom thereof, is dragged over the ground to be scraped. The dirt is directed into the body, during the scraping operation, due to the forward movement of the l0 scraper, and is retained therein until a place is reached where it is to be dumped.

Heretofore Scrapers of the above type have been seriously limited in size, due to the fact that the material scraped has a tendency to accumulate directly above the cutting edge, and to overflow around the front and sides of the scraper body without iilling the rear thereof. The above disadvantage has resulted in the construction of scrapers of relatively small dirt ca- 2.3 pacity, at least as far as the length of the accumulating body, extending rearwardly of the cutting edge is concerned. This limitation in size necessitates frequent time consuming trips to convey a loaded scraper to a place where the dirt or other scraped material is to be dumped. A compromise for this condition has heretofore been effected by arranging a plurality of Scrapers in tandem, one behind the other, and pulling the lot by means of a tractor or other tractive device. However, this results in an expensive arrangement of a number of scraper units, the operation of which is difficult to control by the tractor operator .from a single operating station, namely the tractor, while the units are being moved during the scraping operation.

A further diiculty heretofore experienced, which is also due to the above noted accumulation of dirt directly above the cutting edge, is the settling or packing of the dirt to such an extent as to clog the cutting edge, preventing the edge from biting or cutting into the dirt and thus preventing any further movement of the dirt upward into the scraper body.

It therefore becomes one object of the present invention to increase the capacity of a dirt scraper.

A further object of the invention is to prevent the packing of scraped material directly above the cutting edge of a scraper.

A further object of the invention is to facilitate removal of scraped material from a scraper body.

A further object is to reduce the force necessary to remove scraped material from a scraper 55 body.

A stili further object of the invention is to obtain common operation of a crowding mechanism and material removing means.

A still further object of the invention is to retain the crowding mechanism in an inoperative and removed position during removal of the scraped material from the scraper body.

The above objects and others, which will be apparent from the following specifications taken in connection with the accompanying drawings l0 forming a part thereof, are accomplished by providing a, crowder member adjacent the cuting edge of the scraper body. The crowder member is supported for movement through a curvilinear path past the scraper cutting edge by a plurality of links pivotally connecting the same to the scraper body. A single cable when pulled is inoperatable to move the crowder member in such a path as to move the dirt or other material, accumulating adjacent the cutting edge. rearwardly into the scraper body. However, an important function of the crowder member is to loosen the packed or settled material thus preventing clogging of the cutting edge.

'Ihe dirt expelling or removing means comprises what I will term a draper adapted to be operated through the same cable which operated the crowder member. A differential pulley block arrangement is provided between the draper operating section and the crowder operating section of the cable to permit selective operation 0f either of these two mechanisms as desired. A suitable latch device, normally retaining the draper member in an inoperatable position, is adapted to be released on operation of the crowder member in a direction opposite that of its normal movement during the dirt shifting cycle.

The draper mechanism comprises a sheet of flexible or pliant material which forms part of the bottom and end walls of the scraper body; is attached to the bottom wall of the body, and is movable lengthwise of the scraper at the upper end thereof by means of a carriage adapted to be moved by the operating cable. On release of the draper retaining latch the carriage is drawn forward to produce a rolling action upon the material accumulated within lthe scraper thus moving the material toward the forward end of the body and over the cutting edge thereof. This rolling action requires a minimum expenditure of energy to expel the material from the body.

Although the novel features which are to be characteristic of this invention will be particu- 2 andava larly pointed out in the claims appended hereto, the invention itself, as to its objects and advantages, the mode of its operation and the manner of its organization may be better understood by referring to the following description taken in connection with the accompanying drawings forming a part thereof, in which:

Fig. 1 is a side elevation view of a dirt scraper embodying the present invention;

Fig. 2 is a plan view of the scraper;

Fig. 3 is an enlarged sectional view of a portion of the one-way trip mechanism for releasing the draper retaining latch;

Fig. 4 is a sectional elevation view of the scraper, partly broken away and is taken along the lines 4 4 of Fig. 2;

Fig. 5 is a fragmentary sectional view illustrating the draper retaining latch mechanism and is taken in the direction of the lines 5--5 of Fig. 6;

Fig. 6 is a transverse sectional elevation view of the upper rear portion of the scraper body and draper carriage and is taken along the lines B-B of Fig. 4;

Fig. '7 is a fragmentary sectional View of one end of the draper carriage and is taken along the lines 1-1 of Fig. 4;

Fig. 8 is a transverse sectional elevation view through the forward end of the scraper body and is taken along the lines 3 8 of Fig. 4;

Fig. 9 is a front elevation view similar to that of Fig. 8 but is taken along the lines 9 3 of Fig. 4;

Fig. l() is a transverse sectional Velevation view of the forward upper portion only of the scraper body, illustrating the traveling differential pulley block, and is taken along the lines Ill-Ill of Fig. 4;

Fig. ll is a sectional plan view taken through the forward end of the scraper body and the associated crowder member, and is taken along the lines II-II ofFlg. 4;

Fig. 12 is a perspective diagrammatic view of the scraper illustrating the arrangement of the cables and pulleys for moving the crowder and draper mechanisms;

Figs. 13 to 16, inclusive, are diagrammatic views of the various crowder mechanism elements illustrating successive steps in the operation of the crowder member;

Fig. 1'7 is a rear sectional elevation view of the scraper and is taken along the lines I'I-I'I of Fig. 4.

Referring now to the drawings, the scraper comprises an accumulating body for dirt or the like material, and is generally indicated at III. The body Ill comprises a bottom wall II, and end wall I2, and side walls I3 and I4, respectively. The body Il is supported at its rear end by means of a set of coaxial wheels I5 (Fig. 1'7) carried on shafts I6 and I1 secured in sets of brackets I5 and I9, respectively, extending-from the rear of the body Ill.

A transversely extending cutter or scraper bar 2| (Fig. 4) is provided at the lower forward end of the body III and is removably secured for sharpening, replacing, and the like to a transversely extending floor section 23 by bolts 22. Floor section 23 is rigidly secured, as by welding. at either end thereof to the side walls I3 'and I4. As shown, the cutter bar 2| extends below the bottom level of the body lil and has a cutting edge formed at the lower extremity thereof for the purpose of entering into the surface of the material to be scraped.

The forward end of the body I0 is carried by wheels 24 and 25 through a vertically adjustable mount, generally indicated at 25, for the purpose of adjusting the cutter bar 2| to any desired level in relation to the surface of the material being scraped. Referring in particular to Figs. 1, 2, and 4 the adjustable mount 2l comprises a tripod member 21 having a pair of diverging, rearwardly extending legs 28 and 29 pivotally secured at their lower ends to brackets 30 and 3l extending forwardly of the scraper sides I4 and I3, respectively, by means of coaxial pins 32 and 33, respectively. The remaining depending leg 34 of the tripod member 21 which is rigidly secured to the upper ends of the legs 25 and 29 is pivotally secured at 35 (Fig. 1) to a transversely extending axle mem ber 36 to permit pivotal movement of such axle about a vertical axis. Axle 33 is journaled at either end thereof in the wheels 24 and 25. A draw-bar 31, pivotally secured at one end thereof to the axle 33, is adapted to be connected to any suitable source of prime mover, preferably a. tractor (not shown).

Secured to the end of an upwardly extending portion of the leg 34 of the tripod 21 is a pulley block 33 having mounted therein a plurality of coaxial and individually rotatable pulleys 40, and having an enlarged opening 4I (Fig. 4) in the central portion thereof to slldably receive a strut 42. Strut 42 is bifurcated at its rear end and is pivotally secured thereat by a pin 39 to a bear- V ing piece 43 secured in rigid relation to the scraper body Ill and forwardly thereof by a pyramidal bracket member 44 having its apex terminating in the piece 43, the other ends thereof being suitably formed integral with the forward ends of the scraper sides I3 and I4. The upper surface of' the bracket 44 is formed triangularly in shape consistingof three structural members 45, 45, 4T, the transversely extending member 45 serving to hold the upper ends of the sides I3 and I4 in rigid spaced relation with each other.

'I'he strut 42 has secured at the forward end thereof a pulley block 33 having mounted therein a plurality of individually rotatable pulleys 5I. A single pulley 52 located centrally of the block 50 is carried by the block for rotation about a vertical axis. A lifting cable 53 is secured at one end 54 to the pulley block 33 formed on the tripod member 21. A portion of the cable 53 is wound around the successive ones of the sets of pulleys 4II and 5I and 52 of the pulley blocks 33 and 50, respectively, in a helical fashion to form a block and tackle of suillcient mechanical advantage to permit the forward end of the scraper to be easily raised or lowered through a suitable power driven winch (not shown), preferably located on the tractor, to which winch-the free end of the cable 53 is attached. When the cable 53 is drawn up the two blocks 38 and 50 are brought towards each other, causing the upper end of the tripod leg 34 to move forwardly and thus, through the remaining legs 28 and 29, raise the forward end of the scraper including the cutter bar 2l.

While the scraper is in cutting or in scraping position the cable 53 is regulated so as to adjust the cutter bar 2| to any particular level depending upon the condition of the material being scraped, the speed at which the scraper is being drawn over the surface of the ground, and other controlling factors.

On completion of the scraping operation i. e., when the body III has accumulated its full capacity of scraped material, the cable 53 is drawn,

(ill

thereby raising the forward end of the body I0, including the cutter bar 2l, clear of the ground and permitting the scraper to be drawn as a trailer to the point to which the accumulated material is to be dumped.

Referring now to Figs. 1, 4, 9, and l1 particularly, I will now describe the crowder mechanism for shifting the material accumulated above the cutter bar 2| toward the rear of the scraper body. The Crowder proper is generally indicated at 55 and comprises a series of transversely extending plates 56 suitably secured together along their longitudinal edges, as by welding, to form a reinforced scoop or apron. Sides 58 and 59 (Fig. 11) are secured at the ends of the plates 56, these sides lying closely adjacent the scraper sides I3 and I4 of the scraper body, thus preventing lodging of rocks and other hard substances which would be likely to wedge between the crowder member and the scraper sides. These sides 58 and 59 extend forwardly of the plates 56 to form U shaped extensions 68 and 6|, respectively. Rearwardly extending arms 62 and 63 are integrally formed with the extensions 60 and 6|, respectively, these arms each terminating at the end thereof in a depending projection 64. The extensions 60 and 6| are of sufficient length to permit full movement of the crowder in its prescribed path without striking the forward edges of the scraper sides |3 and |4.

A link or arm 65 is pivotally connected at its upper end to an extension of the scraper side I3 by means of a stub shaft 61 on which link 85 is pivoted. The lower end of the link 65 is bifurcated and is pivotally connected to the arm 63, adjacent the rear end thereof, by a pin 68. A similar link 10 is pivotally connected to an extension of the scraper side I4 by means of a pin 12 coaxial with the pin 68 of link 65.

The crowder 55 is further pivotally supported by the scraper body through an articulated link generally indicated at 15. Link 15 comprises two sections or arms 16 and 11 having an offset pivotal connection 18 therebetween. The upper end of the section 16 is pivotally connected by means of a pin 19 to the piece 43. The lower end of the section 11 has an extension 80 formed integrally thereon, such extension having a pin 8| secured thereto and adapted to ride in a substantially vertically extending slot 82 formed in a guide plate 83 projecting forwardly from the central portion of the scoop 55 and suitably secured thereto, The adjacent ends of the link sections 1B and 11 of the articulated link 15 are adapted to normally contact each other thus permitting the link 15 to serve, in a coextensive position of sections 16 and 11, as a rigid member due to the offset condition of the pivotal connection 18 and the engagement of the adjacent ends of these sections. A shaft 84 extending through a boss 89 formed on the lower extremity of the link section 11, carries on either end thereof a pair of independently rotatable pulleys 85 and 86 (Figs. 9 and il).

Referring now particularly to Figs. 1, 4, 8, 9, and 12, a pulley 81 is rotatably supported at the rear end of the scoop arm 63. A cable 88 secured to the scraper side |3 at 90 is passed around the circumference of the pulley 81, around a second pulley 9| rotatably secured to the side I3 above the pulley 81, and around a third pulley 92 rotatably mounted on the side I3 and extending through an opening formed therein. As shown in Fig. 8, the pulley 92 is rotatably journaled for movement about a vertical axis in bearings 93 suitably secured to the inner surface of the side I3. From pulley 92 the cable 88 extends transversely across the scraper, around a pulley 94 (Figs. 4 and 10) suitably journaled in bearings 95 for rotation about a vertical axis and extending through an aperture formed in the side wall I4. The end of cable 88, after passing around the pulley 94, is secured at |09 to a traveling differential pulley block 96. Block 96 is slidable transversely of the scraper along a guide bar 91 which is secured at its ends within projections 98 and 99 extending from the sides I3 and I4, respectively.

A second cable |||0 (Fig. 4) is secured to the side i4 at |0| and passes around a rotatable pulley |02 carried on the end of the scoop arm 62. The cable |00 passes around a pulley |03 rotatably mounted on the side I4, thence around a pulley |04, directly below and coaxial with the pulley 94, and is suitably secured at its end to the block 98 at the same place cable 88 is secured.

The scoop 55 is urged forwardly of the cutter bar 2| by means of a spring tensioned cable |05 on each side of the scraper body. The cable |05 is secured at one end thereof to the projection 64, is passed around a. pulley |06 rotatably mounted on the respective side of the scraper, and is suitably secured at |01 to the scraper side. A tension spring |08 is inserted in the two sections of the cable |05.

As shown in Fig. 9, a pulley ||0 is rotatably supported through a bracket by the pyramidal bracket 44 at a point adjacent the bearing piece 43. A second pulley ||2 is also rotatably i supported on the bracket 44 on the opposite side i of the piece 43 to guide a scoop operating cable described hereinafter.

Describing now the dirt expelling or draper mechanism, the floor I I of the scraper body cornprises a door ||3 transversely hinged along its forward end at ||4 to the floor section 23. The rear end of door ||3 is secured by means of bolts ||5 to a. sheet of flexible and pliant material I6. Such material is preferably of rubber or rubberized fabric which may be suitably reinforced. Both the door H3 and a portion of the sheet IIB are supported by a plurality of beams |36 extending between the rear wall I2 and the forward floor section 23. The sheet ||6 is draped over the rear wall I2 of the scraper and also over a draper roll I1 rotatably supported in a carriage, generally indicated at ||8, and is secured at its rear end at ||9 to a swingable mount |20 which is pivotally secured on either end thereof at |2| to brackets |22 extending from the rear of the scraper body. Mount serves to remove any slack produced in the sheet IIE, the upper limit of its travel being indicated by the dotted lines in Fig. 4. The carriage ||8 comprises a transversely extending frame consisting of a pair of cross beams |96 and |91 having U shaped depending bearing frames |23 and |24 at either end thereof. Pairs of flanged wheels and |25' rotatably mounted in each of the bearing frames |23 and |24, are adapted to carry the carriage I|8 along longitudinally extending tracks |26 and |21. These tracks are supported upwardly and outwardly of the scraper sides I3 and |14 by suitable brackets |28. As noted in Fig. 7, the roll ||1 is rotatably journaled upon a shaft |29 secured at either end thereof in the bearing frames |23 and |24.

The carriage I|8 is retained in transverse alignment throughout its travel along the tracks 28 and |21, through a cable guiding system comprising a pair of cables |30 and |3|. The cable |30 is attached at one end thereof at |32 to the bearing frame |23 of the carriage IIB, and passes around a pulley |33 rotatably supported on the rear end portion of the track |25. The cable |30 then passes forwardly around a second pulley |34'rotatably supported for movement about a vertical axis upon a bracket |35 extending upwardly from the scraper side I3. The cable |30 then passes transversely across the scraper body, around a third pulley |31, rotatably supported upon a bracket |33 carried by the scraper side I4, and is secured at |33 to the opposite bearing frame |24. The cable |3i is directed through a similar but opposite path to the cable |30 being secured at one end |40 (Fig. 2) to the frame |24. Cable |3I then passes around a pulley I4I, similar to that of |33, on the extending end of the track |21, thence forwardly around a pulley |42 rotatably carried by the bracket |38 below and coaxial with the pulley |31. From pulley |42 cable |3I passes across the scraper and around a pulley |43, coaxial with pulley |34, and is secured at |44 to the frame |23 of the carriage I I5. As shown in Fig. 8 the cables |30 and |3| cross each other while extending across the scraper body. It will be apparent from the foregoing that the cables |30 and I 3| serve to retain the carriage ||5 in a position parallel to itself throughout its entire travel along the tracks |25 and |21 without extending over the dirt containing portion of the scraper body.

The draper carriage I I5 is adapted to be moved forwardly along the tracks |25 and |21 by means of a single cable |45. This cable is secured at |45 (Figs. 2, 4, and l2) to a bracket |41 extending upwardly from the cross bar 45 of the pyramidal bracket 44. Cable |45 passes around a rotatable pulley |45 mounted on a bracket |43' carried by the frame |24 of carriage ||||l thence forwardly around a pulley |49 rotatably mounted on a bracket |43' extending upwardly from the forward end of the track |21, around a third pulley |50 rotatably mounted on a bracket |53 extending upwardly from the forward end of the track |26, around a fourth pulley I5| rotatably carried in a manner similar to that of |48 by the frame |23 of carriage IIB. From pulley I5I the cable |45 again passes forwardly around a fifth pulley` |52 rotatably mounted upon a bracket |53 extending from the forward upper edge of side I3. This cable then passes around a sixth pulley |54 rotatably carried on a bracket |55 also extending from the side I3 of the scraper, as noted in Figs. 9 and 10. Gable 145 then passes around an upper pulley |55 rotatably mounted in the sliding differential pulley block 55, around a pulley |51 rotatably supported from the side I3 by a bracket |51', around a lower pulley |50 rotatably mounted in block 35, around pulley |50 also rotatably supported from the side I3 through a bracket |53', and around pulleys II2, 55, |50, 35, and in the order named. As noted in Fig 4, the pulley |50 is carried in a swiveled block |52 depending from a cross piece |5I, forming part of the pyramidal bracket 44, to accommodate for various angular positions of the cable |45 during operation thereof to move the scoop 55 through its prescribed path in a manner to be hereinafter described. The arrangement of the various cable connections and pulleys will be readily understood on reference to the diagrammatic perspective view in Fig. 12. The end of cable |45 extends forwardly and is preferably moved by a winch on the tractor device under the control of the operator.

Referring now to Figs. 1, 3, 5, and 6, the draper carriage |I is normally retained in a locked position at the rear of the scraper body by means of a latch mechanism generally indicated at |53. In detail, this latch mechanism comprises a pair of dogs |54 and |55 (Fig. 5) securely mounted on either end of a transversely extending latch shaft |55. Shaft |55 is rotatably journaled in bearings I51 and |55 carried on the upper edges of the scraper sides I5 and I4, respectively. These dogs |54 and |55 are adapted to normally extend upwardly and engage the rear wheel of each set of wheels |25 and |25' on either side of the carriage II5, thus preventing movement of the carriage along the tracks |25 and |21 due to the pull of cable |45 until the latch mechanism is released. The dog |54 has a downwardly extending arm |53 to which is pivotaily connected at one end of a latch rod |1|. The opposite end of the rod |1| is connected, as exemplified in Fig. 3, to the upper end of a cam arm |12. The forward end of the rod I1| is threaded to receive a pair of adjustable lock nuts |13 which abut a block |14 having an aperture therein rendering the block slidable along the rod |1|. A compression spring engaging at one end thereof the block |14, engages at its other end a sleeve |15 suitably secured to the rod |1| whereby the block |14 is urged against the lock nuts |13. Block |14 is pivotally connected through a pin connection |11 to the upper end of the cam arm |12. Arm |12 is pivotally supported intermediate its ends on the stub shaft 51, carrying the upper end of link 55, The lower end |15 of cam arm |12 is adapted to be engaged by a projection |00 (Figs. l and 9), extending from the arm 53, during the movement of the scoop 55. The latch mechanism |53 is normally retained in a locked condition by means of a suitable tension spring |31 connected between the rod I'|| and the scraper side I3.

The operation of the crowder mechanism is as follows; during the cutting or scraping operation, the scoop 55 is preferably retained in the position shown in the diagrammatic view of Fig. 13 by permitting the spring tension cables |05 to withdraw the pulleys 51 and |02 as close as possible to the pulleys |05 thus holding the scoop 55 in an extreme forward position without releasing the cable |45 suillcientiy to permit the scoop 55 to drop. Whenever it is desired to operate the scoop 55 to move the accumulated dirt rearwardly into the scraper body the cable |45 is released permitting the scoop 55 to drop of its own weight, hinging about the coaxial points 55 and 13 to allow the sections 15 and 11 of the articulated link 15 to assume a coextensive position, as shown in Fig. 14 thus completing the first step. After falling into this position, the link 15 will thereafter act as a single rigid link pivotal about its upper pin connection 13 for a predetermined movement of this link. As shown in Fig. 14, the scoop in this position is closely adjacent the upper surface of the ground being scraped, but in advance of the cutting bar 2|.

After the scoop has reached the position in Fig. 14 tension is applied to the cable |45 which, since the link 15 acts as a rigid single link, now has no effect on this link. However movement is transmitted to the differential pulley block 55, moving the same to the left, as will be apparent on reference to Figs. 10 and 12. In turn movement of block 55 acts upon the two cables 55 and 75 to draw the scoop 55 rearwardly while swinging on links 85 and 10 until the upper link section 18 of the articulated link 15 strikes a projection |82 in a form of a threadably adjustable headed rod |83 mounted in a bracket |84 depending from the cross piece |5| of the pyramidal bracket 44. Further rearward movement of the scoop 55, through the action of the cables 88 and |80, causes the link to break, as shown in Fig. l5, while permitting the lower pulleys 85 and 88 of link 15 to be drawn past a previous dead center position in line with the pivotal connection 18, and allowing this link 15 to be collapsed into the position shown in Fig. 16 due to the pull exerted by the cable passing around the pulleys 85 and 88. By now releasing the cable |45 a cer- 'tain amount, the spring tension cables |05 are allowed to swing the scoop assembly into its original normal position shown in Fig. 13, the projection |80 on arm 83 moving the cam arm |12 in a counter-clockwise direction during such movement until the arm |12 snaps past the projection |80. It is to be noted that during this movement of arm |12 no movement is transmitted to the draper retaining latch mechanism due to the fact that the spring |15 absorbs such movement.

Whenever it is desired to expel the accumulated dirt from within the scraper body, the scoop is returned to its normal position, as shown in Fig. 13, if not already there. In this position it will be noted thatthe trip projection |80 is forward of the lower portion |18 of the cam arm |12. In this condition the cable |45 is drawn causing the cables 88 and |00, through the action of the differential block 88, to 'withdraw the ends of the arms 82 and 63 upwardly to the position shown in Fig. i6. This movement causes the projection |88 to engage and move the cam arm |12 in a clockwise direction thus engaging the lock nuts |13 to move the latch rod |1I, and releasing the dogs |84 and |85. This unlatching action permits the cable |45 to draw the carriage I|8 forwardly into and past the position shown by the dotted lines |85 (Fig. 4), there being no further movement of the scoop 55 due to the already collapsed condition of the link connections therefor. As the carriage I I8 is moved forwardly the swingable mount |20, normally carrying a surplus amount of the sheet ||8, is drawn upward into the position shown by the dotted lines in Fig. 4 because of the increased length of sheeting required. It will be noted that the action of the carriage ||8 and the iiexible sheet IIE is such as to cause a rolling motion to the dirt being expelled. This action requires much less effort to produce a forward movement of the dirt than the direct bodily movement heretofore employed in scrapers of this type.

The carriage ||8 is returned to its original position on release of cable |45 by a spring tensioned cable |81, as shown in Figs. 4 and 1'7. One end of cable |81 is secured to a bar |88 extending between the bearing frames |28 and |24 of carriage IIB and is passed around a pulley |88 mounted on a bracket |80 suitably supported at the rear of the body I0. The cable |81 is then wound around a pulley |8| rotatably mounted to the rear wall I2 of the body III, around a third spring controlled pulley |82, and is secured at |88 to the wall I2. A tension spring |84 is connected between the pulley |82 and a point |85 on the rear wall I2.

As shown in Fig. 4 and described hereinbefore, the pin 8| effecting the pivotal connection between theV link 15 and the scoop 55, is adapted t9 ride along the slot 82 formed in the member 83 to accommodate for lumps of dirt, rocks, irregularities in the surface of the ground, etc., which may strike during its normal operating movement. The arrangement of this pin and slot connection thus permits the scoop 55 to start its rearward movement at any level determined by the surface of the material being scraped.

It is to be understood that, while I have herein described and illustrated a preferred form of my invention, the invention is not limited to the precise construction as herein described, but includes within its scope whatever changes fairly come within the spirit of the appended claims.

What is claimed is:

l. A scraping machine comprising a scraper body having a scraping edge associated therewith, means movable toward and away from said edge for moving material scraped by said edge into said body, means for ejecting scraped material from said body, locking means for restraining said ejecting means from movement, and means responsive to the movement of said first mentioned means for releasing said locking means.

2.. A scraping machine in accordance with claim 1 wherein common operating means is provided for said iirst mentioned means and said ejecting means.

3. A scraping machine comprising a scraping body having a scraping edge associated therewith, a crowder member, means for guiding said member past said edge, means for ejecting material from said body, means normally locking said ejecting means against movement, and means responsive to the movement of said crowder member in one direction for releasing said locking means.

4. A scraping machine comprising a body,

means forming a scraping edge associated with said body, a crowder member adapted to move scraped material in said body, an articulated link pivotally connected between said member and said body for guiding said member in a predetermined path, means for retaining said link rigid during a portion of the movement of said member, and means for breaking said link at a predetermined point on movement oi said member.

5. In a scraping device, a scraper body, a material moving member adapted to move material in said body, an articulated link connected at one end thereof to said member, said link comprising a pair of link sections and a pivotal connection between said sections, means for pivotl ally supporting the other end of said link, means for moving said member and said link about the supported end of said link, means for maintaining said link rigid during a portion of the movement or said member, and means for preventing movement of the link section removed from said member at a predetermined point in the movement of said member whereby said member is adapted to bemoved about said pivotal connection.

6. In a scraping machine comprising a scraper body having a cutting edge associated therewith, a. crowder device for moving scraped material accumulated adjacent said edge into said body comprising a crowder member, an articulated link pivotally .connected between said device and said body, said link comprising a pair o! link sections and a pivotal connection therebetween, means for drawing said member toward and past said edge, and means for restraining one of said CII.

link sections as said member passes'said cutting edge whereby said member is moved about said pivotal connection during the remainder of the movement of said crowder device.

7. In a road conditioning machine comprising a scraper body adapted to be drawn over the surface of material to be scraped and means forming a cutting edge associated with said body for scraping said material as said body is being drawn, the combination of means for moving scraped material accumulated adjacent said edge into said body comprising the combination of, a crowder member, an articulated link pivotally connecting said member and said body, said links being adapted to guide said member past said cutting edge in a predetermined path, and means for engaging the section of said rst mentioned link which is pivotally connected to said body when said member passes a predetermined point in the path of movement thereof.

8. Means for removing material from within scraper bodies and the like comprising a sheet adapted to be flexed in a longitudinal direction, means for securing one end oi' said sheet to'the floor of a material containing body, means for supporting the other end of said sheet adjacent the top of said body, roller means engaging the under surface of said sheet. and means for moving said roller means longitudinally of said body and in rolling engagement with said sheet.

9. In a scraping machine, a material contain- .ing body having bottom, side, and end walls, a flexible sheet, means for securing one end of said sheet on the bottom wall oi said body, means for supporting the other end of said sheet adjacent the upper end of the end wall of said body whereby said sheet is adapted to drape over said bottom and end walls, a carriage, means for supporting said carriage for movement along the top of said body, said carriage being adapted to movably engage said sheet, and means for moving said carriage longitudinally of said body.

10. A scraping machine comprising a scraper body having a scraper edge associated therewith, means movable toward and away from said edge for moving material scraped by said edge into said body, means for ejecting scraped material from said body, locking means for restraining said electing means from movement, an arm, means pivotally supporting said arm, means connecting said arm with said locking means to unlock said locking means on movement of said arm, and means operatively connected to said rst mentioned means and adapted to move said arm.

il. A scraping machine according to claim 10 comprising means for rendering said connecting means ineiective to release said locking means on movement of said arm in one direction.

12. A scraping machine comprising a scraper body having a scraper edge associated therewith, a crowder member, means adaptedv to move said member rearwardly to move material scraped by said edge into said body, a second means adapted to move said member upwardly after a predetermined rearward move thereof, and common means for operating said first two mentioned means.

13. A scraping machine comprising a scraper body having a scraper edge associated therewith. a crowder member means for guiding said member in said body, cable means for moving said member rearwardly to move material scraped by said edge into said body, a second cable means for moving said member upwardly, and means for rendering last mentioned cable means ineffective for a predetermined rearward movement of said member. and an operable connection between said two mentioned cable means.

14. In a scraping machine, a body, a member for moving scraped material in said body, an arm section on said member, a second arm section pivotally connected between said iirst mentioned arm section and said body to forman articulated arm, a second articulated arm pivotally connected between said member and said body forward of said iirst mentioned articulated arm, means for effecting a collapsing movement of said articulated arms, and means preventing collapse of one of said articulated arms until the other of said articulated arms has collapsed a predetermined amount.

l5. In a scraping machine, a body, a member for moving scraped material in said body, means i'or moving said member in one direction. means for moving said member in another direction, common operating means for said first two mentioned means, and diil'erential means whereby one of said rst two mentioned means may be operated independently oi the other.

16. Means for moving material in a scraper body or the like comprising a exible material support, means for securing one end oi said support at the bottom of said body, means for supporting the other end of said flexible support above the bottom ci said body, means movably supporting a portion oi' said flexible support above the bottom oi' said body, and means for moving said last mentioned means longitudinally of said body along said ilexlble support.

l'l. A scraping machine comprising a scraper body, a flexible material support in said body,`

means for supporting one end o1 said support adjacent one end of said body, means for supporting the other end oi' said support adjacent the other end of said body, roller means supporting said support intermediate the ends thereof and at a level higher than one of the supported ends of said flexible support, and means for moving said roller means toward said last mentioned supported end.

18. A scraping machine according to claim 17 comprising means for removing slack in said flexible material support in diii'erent positions of said roller means.

19. A scraping machine comprising a scraper body having a scraping edge associated therewith, a crowder member, means adapted to move said member rearwardly to move material scraped by said edge into said body, a second means adapted to move said member upwardly after a predetermined rearward movement thereof, common power means for said first two mentioned means, and means whereby the mechanical advantage between said power means and one of said i'irst two mentioned means is greater than the mechanical advantage between said power means and the other of said two mentioned means.

20. A machine of the class described comprising a scraper body, means forming a scraping edge associated with the front of said body and adapted to scrape material thereunder on forward movement of said body. a crowder member adapted to move material scraped by said edge into said body, link means for guiding said member past said edge from a position forward o! said edge to a position rearward of said edge for moving said scraped material, and means controlling said link means for guiding said member in a curve of relatively long radius from said forward position to a position adjacent said edge and for guiding said member in a curve of relatively short radius upwardly from said last mentioned position to said rearward position.

21. A machine according to claim 20 wherein 10 said link means comprises an articulated link CERTIFICATE 0F' CORRECTION.

Patent No. 2,172,672.

September 12, 1959.

GORDON E. DANIEIS.

It is hereby certified that error appears in the printed specification of the above numbered patent requiring correction as follows: Page l, second column, line 18, for the word "inoperatable" read --h-operetable--g and that the seid Letters Patent should be read with this correction therein that' the same may conform to the record of the case inthe Patent Office.

signed and sealed this 2nd day of July, A. D. 191m.

(Seal) Henry Van Ai'sdale,

Acting Commissioner yof Patents.

said edge to a position rearward of said edge for moving said scraped material, and means controlling said link means for guiding said member in a curve of relatively long radius from said forward position to a position adjacent said edge and for guiding said member in a curve of relatively short radius upwardly from said last mentioned position to said rearward position.

21. A machine according to claim 20 wherein 10 said link means comprises an articulated link CERTIFICATE 0F' CORRECTION.

Patent No. 2,172,672.

September 12, 1959.

GORDON E. DANIEIS.

It is hereby certified that error appears in the printed specification of the above numbered patent requiring correction as follows: Page l, second column, line 18, for the word "inoperatable" read --h-operetable--g and that the seid Letters Patent should be read with this correction therein that' the same may conform to the record of the case inthe Patent Office.

signed and sealed this 2nd day of July, A. D. 191m.

(Seal) Henry Van Ai'sdale,

Acting Commissioner yof Patents. 

